ASMT-QxB2-Fxxxx
Super 0.5 W Power PLCC-4 Surface Mount LED Indicator
Data Sheet
Description
The Super 0.5 W Power PLCC-4 SMT LED is an extension
of Power PLCC-4 SMT LEDs. The package can be driven
at high current due to its superior package design. The
product is able to dissipate the heat more e ciently
compared to the Power PLCC-4 SMT LEDs. These LEDs
produce higher light output with better  ux perfor-
mance compared to the Power PLCC-4 SMT LED.
The Super 0.5 W Power PLCC-4 SMT LEDs are designed
for higher reliability, better performance, and operate
under a wide range of environmental conditions. The
performance characteristics of these new mid-power
LEDs make them uniquely suitable for use in harsh
conditions such as in automotive applications, and in
electronics signs and signals.
To facilitate easy pick and place assembly, the LEDs are
packed in EIA-compliant tape and reel. Every reel is
shipped in single intensity and color bin (except for red),
to provide close uniformity.
Super 0.5 W Power PLCC-4 SMT LED is available in red,
red orange and amber colors.
Features
Industry Standard PLCC 4 platform (3.2 x 2.8 x 1.9
mm)
High reliability package with enhanced silicone resin
encapsulation
High intensity brightness with optimum  ux
performance using AllnGaP chip technologies
Available in Red, Red Orange and Amber colors
High optical e ciency
Available in 8 mm carrier tape and 7 inch reel
Low thermal resistance
Super wide viewing angle at 120 degrees
Longer life time with minimum degradation due to
enhanced Silicone resin material
JEDEC MSL 2a
Applications
Exterior automotive
- Turn signals
- Side repeaters
- CHSML
- Rear combination lamp
- Side markers
- Truck clearance lamp
Electronic signs and signals
- Channel lettering
- Contour lighting
- Indoor variable message sign
O ce automation, home appliances, industrial
equipment
- Front panel backlighting
- Push button backlighting
- Display backlighting
CAUTION: ASMT-QxB2-Fxxxx LEDs are Class 2 ESD sensitive. Please observe appropriate precautions
during handling and processing. Refer to Avago Application Note AN-1142 for additional details.
2
Package Drawing
Figure 1. Package drawing
Table 1. Device Selection Guide (TJ = 25 °C)
Color Part Number
Luminous Flux, ΦV[1] (lm)
Dice Technology
Min. Flux
(lm)
Typ. Flux
(lm)
Max. Flux
(lm)
Test Current
(mA)
Amber ASMT-QAB2-FDE0E 9.0 11.4 15.0 150 AlInGaP
Red Orange ASMT-QHB2-FEF0E 11.5 14.0 19.5 150 AlInGaP
Red ASMT-QRB2-FCD0E 7.0 9.8 11.5 150 AlInGaP
Notes:
1. ΦV is the total luminous  ux output as measured with an integrating sphere at mono pulse conditions.
2. Tolerance = ±12%.
3.6 0.2
0.5 0.1
3.2 0.2
2.8 0.2
2.2 0.2
1.9 0.2
0.15 (TYP.)
0.8 0.1
0.8 0.3
AA
CC
0.7 0.1
ANODE
MARKING
2.40 1.15 0.05
2.30 0.05
0.41 (TYP.)
0.56 (TYP.)
1. ALL DIMENSIONS IN MILLIMETERS.
2. LEAD POLARITY AS SHOWN IN FIGURE 13.
3. TERMINAL FINISH: Ag PLATING.
4. ENCAPSULATION MATERIAL: SILICONE RESIN.
NOTES:
Part Numbering System
A S M T – Q X1 B 2 – F X2 X3 X4 X5
Packaging Option
Color Bin Selection
Max. Flux Bin Selection
Min. Flux Bin Selection
Color
A - Amber
H - Red Orange
R - Red
3
Table 4. Electrical Characteristics (TJ = 25°C)
Part Number
Forward Voltage VF
(Volts) @ IF = 150 mA
Reverse Voltage
VR @ 100 μA
Thermal Resistance
RθJ-P (°C/W)
Typ. Max. Min.
ASMT-QAB2-Fxxxx 2.70 3.25 5 60
ASMT-QHB2-Fxxxx 2.70 3.25 5 60
ASMT-QRB2-Fxxxx 3.10 3.55 5 60
Table 2. Absolute Maximum Ratings (TA = 25°C)
Parameters ASMT-QxB2-Fxxxx
DC Forward Current [1] 150 mA
Peak Forward Current [2] 200 mA
Power Dissipation 470 mW
Reverse Voltage 5 V
Junction Temperature 125°C
Operating Temperature -40°C to +110°C
Storage Temperature -40°C to +110°C
Notes:
1. Derate l inearly as shown in Figure 6.
2. Duty Factor = 10%, Frequency = 1kHz.
Table 3. Optical Characteristics (TJ = 25°C)
Color Part Number
Dice
Technology
Dominant
Wavelength
λD[1] (nm)
Viewing
Angle 2θ1/2[2]
(Degrees)
Luminous
E ciency
ηe(lm/W)
Total Flux /
Luminous Intensity
FV (lm) / IV (cd)
Typ. Typ. Typ. Typ.
Amber ASMT-QAB2-Fxxxx AlInGaP 594.5 120 28 3.3
Red Orange ASMT-QHB2-Fxxxx AlInGaP 617.0 120 35 3.3
Red ASMT-QRB2-Fxxxx AlInGaP 624.0 120 21 3.3
Notes:
1. The dominant wavelength, λD, is derived from the CIE Chromaticity diagram and represents the color of the device.
2. θ1/2 is the o -axis angle where the luminous intensity is 1/2 the peak intensity.
4
Figure 2. Relative intensity vs. wavelength Figure 3. Forward current vs. forward voltage
Figure 4. Relative intensity vs. forward current Figure 5. Relative intensity vs. temperature
Figure 6a. Maximum forward current vs. ambient temperature. Derated
based on TJMAX = 125°C, RθJ-A = 130°C/W, 110°C/W, 100°C/W and 80°C/W.
WAVELENGTH – nm
RELATIVE INTENSITY
1.0
0.8
0
380 480 580 680 730 780
630530430
0.6
0.4
0.2
AlInGaP RED
0.1
0.3
0.5
0.7
0.9 AlInGaP AMBER
AlInGaP
RED-ORANGE
0
FORWARD VOLTAGE – V
0
40
140
160
180
200
FORWARD CURRENT – mA
80
20
100
60
120
43
12
AlInGaP RED
AlInGaP AMBER
AlInGaP
RED-ORANGE
050
DC FORWARD CURRENT – mA
0
0.4
RELATIVE LUMINOUS INTENSITY
(NORMALIZED AT 150 mA)
200100 150
0.2
0.8
0.6
1.0
1.2
RED/RED-ORANGE
AMBER
-50 -25 0
JUNCTION TEMPERATURE – C
0
0.4
RELATIVE LUMINOUS INTENSITY
(NORMALIZED AT 25 C)
12525 50 75 100
0.2
0.8
0.6
1.0
2.2
1.2
1.4
1.6
1.8
2.0
RED
AMBER
RED-ORANGE
0
160
0
20 60 80 120
MAXIMUM FORWARD CURRENT – mA
JUNCTION TEMPERATURE – °C
40
100
120
60
80
40
20
140
100
RJA =
80 °C/W
RJA = 110 °C/W
RJA = 100 °C/W
RJA = 130 °C/W
Figure 6b. Maximum forward current vs. solder point temperature.
Derated based on TJMAX = 125°C, RJP = 60°C/W.
0
160
0
20 60 80 120
CURRENT – mA
TEMPERATURE – °C
40
100
120
60
80
40
20
140
100
AMBER / RED-ORANGE
RED
5
Figure 7a. Maximum pulse current vs. ambient temperature. Derated
based on TA = 25°C, RθJ-A =110°C/W.
Figure 7b. Maximum pulse current vs. ambient temperature.Derated vased
on TA= 85°C, RθJ-P =110°C/W.
0.00
0.10
0.20
0.30
1.00E-05 1.00E-03 1.00E-01 1.00E+01
tp - Time - (S)
CURRENT - A
D = tp
T
tp
IF
T
D =
0.05
0.10
0.25
0.50
1
0.00
0.10
0.20
0.30
1.00E-05 1.00E-03 1.00E-01 1.00E+01
tp - Time - (S)
CURRENT - A
D = tp
T
tp
IF
T
D =
0.05
0.10
0.25
0.50
1
Figure 9. Forward voltage shift vs. temperature
Figure 10. Radiation pattern
Figure 8. Dominant wavelength vs. forward current – AlInGaP devices
DOMINANT WAVELENGTH – nm
0
580
FORWARD CURRENT – mA
200
620
50
630
100
600
150
590
610
AlInGaP RED
AlInGaP RED-ORANGE
AlInGaP AMBER
FORWARD VOLTAGE SHIFT (V)
-50
-0.15
TJ – JUNCTION TEMPERATURE – C
100
0.05
0.10
-25
0.15
0255075
-0.05
-0.10
0
NORMALIZED INTENSITY
-90
0
ANGULAR DISPLACEMENT – DEGREES
90
0.9
0.6
1.0
-60 -30
0.4
30 600
0.3
0.2
0.1
0.5
0.8
0.7
6
Figure11. Recommended pick and place nozzle size Figure 12. Recommended Pb-free re ow soldering pro le
Note: For detail information on re ow soldering of Avago sur-
face mount LEDs, do refer to Avago Application Note AN 1060
Surface Mounting SMT LED Indicator Components.
217 °C
200 °C
150 °C
60 - 120 SEC.
-6 °C/SEC. MAX.
3 °C/SEC. MAX.
3 °C/SEC. MAX.
255 - 260 °C
100 SEC. MAX.
10 - 30 SEC.
TIME
TEMPERATURE
(Acc. to J-STD-020C)
Figure 13. Recommended soldering pad pattern
ANODE
MARKING
0.4
0.3
MINIMUM 55 mm2 OF ANODE PAD
FOR IMPROVED HEAT DISSIPATION
2.4
0.6
0.9 X 6
4.6
1.1
1.3 x 6
ANODE
MARKING
A
C
C C
A A
A A
SOLDER MASK
ANODE
CATHODE
CC
AA
ID
Note: Diameter "ID" should
be bigger than 2.3mm
7
Figure 14. Tape leader and trailer dimensions
200 mm MIN. FOR 180 REEL.
200 mm MIN. FOR 330 REEL.
TRAILER COMPONENT LEADER
480 mm MIN. FOR 180 REEL.
960 mm MIN. FOR 330 REEL.
C
A
USER FEED DIRECTION
Figure 15. Tape dimensions
Figure 16. Reeling orientation
CATHODE SIDE
PRINTED LABEL
USER FEED DIRECTION
3.8 ± 0.1
2.29 ± 0.1
0.229 ± 0.01
ALL DIMENSIONS IN mm.
2 ± 0.054 ± 0.1 4 ± 0.1
3.05 ± 0.1
3.5 ± 0.05
8+0.3
–0.1
1.75 ± 0.1
Ø1.5 +0.1
–0
Ø1+0.1
–0
AA
CC
8
Device Color (X1)
A Amber
H Red Orange
RRed
Flux Bin Select (X2X3)
Individual reel will contain parts from one bin only.
X2Min Flux Bin
X3Max Flux Bin
Flux Bin Limits
Bin ID Min. (lm) Max. (lm)
A 4.30 5.50
B 5.50 7.00
C 7.00 9.00
D 9.00 11.50
E 11.50 15.00
F 15.00 19.50
G 19.50 25.50
H 25.50 33.00
J 33.00 43.00
K 43.00 56.00
L 56.00 73.00
Tolerance of each bin limit = ±12%.
Color Bin Select (X4)
Individual reel will contain parts from one full bin only.
X4
0 Full Distribution
A 1 and 2 only
B 2 and 3 only
C 3 and 4 only
D 4 and 5 only
E 5 and 6 only
G 1, 2 and 3 only
H 2, 3 and 4 only
J 3, 4 and 5 only
K 4, 5 and 6 only
M 1, 2, 3 and 4 only
N 2, 3, 4 and 5 only
P 3, 4, 5 and 6 only
R 1, 2, 3, 4 and 5 only
S 2, 3, 4, 5 and 6 only
Z Special Color Bin
Color Bin Limits
Amber/Yellow Min. (nm) Max. (nm)
2 583.0 586.0
3 586.0 589.0
4 589.0 592.0
5 592.0 595.0
6 595.0 598.0
Red Orange Min. (nm) Max. (nm)
1 611.0 616.0
2 616.0 620.0
3 620.0 625.0
Red Min. (nm) Max. (nm)
Full Distribution 620.0 635.0
Tolerance of each bin limit = ±1 nm.
For product information and a complete list of distributors, please go to our website: www.avagotech.com
Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries.
Data subject to change. Copyright © 2005-2011 Avago Technologies. All rights reserved.
AV02-0232EN - September 30, 2011
VF Binning
Bin Min. Max.
2D 2.35 2.50
2E 2.50 2.65
2F 2.65 2.80
2G 2.80 2.95
2H 2.95 3.10
2J 3.10 3.25
2K 3.25 3.40
2L 3.40 3.55
Tolerance of each bin = ±0.1 V.
Packaging Option (X5 )
Option Test Current Package Type Reel Size
E 150 mA Top Mount 7 Inch
Handling Precaution
The encapsulation of the product is made of silicone
for better reliability of the product. As silicone is a soft
material, please do not press on the silicone or poke a
sharp object onto the silicone. This might damage the
product and cause premature failure. During assembly
or handling, the unit should be held on the body only.
Please refer to Avago Application Note AN 5288 for
detailed information.
Moisture Sensitivity
This product is quali ed as Moisture Sensitive Level 2a
per Jedec J-STD-020. Precaution when handling this
moisture sensitive product is important to ensure the
reliability of the product. Do refer to Avago Application
Note AN5305 Handling of Moisture Sensitive Surface
Mount Devices for details.
A. Storage before use
- Unopen moisture barrier bag (MBB) can be stored
at <40°C/90%RH for 12 months. If the actual shelf
life has exceeded 12 months and the HIC indicates
that baking is not required, then it is safe to re ow
the LEDs per the original MSL rating.
B. Control after opening the MBB
- The humidity indicator card (HIC) shall be read im-
mediately upon opening of MBB.
- The LEDs must be kept at <30°C/60%RH at all times
and all high temperature related processes, includ-
ing soldering, curing or rework, need to be com-
pleted within 672 hours.
C. Control for un nished reel
- For any unused LEDs, they need to be stored in
sealed MBB with desiccant or desiccator at <5%RH.
D. Control of assembled boards
- If the PCB soldered with the LEDs is to be subjected
to other high temperature processes, the PCB needs
to be stored in sealed MBB with desiccant or desic-
cator at <5% RH to ensure no LEDs have exceeded
their  oor life of 672 hours.
E. Baking is required if:
- “10%” is Not Green and “5%” HIC indicator is Azure.
- The LEDs are exposed to condition of >30°C/60%
RH at any time.
- The LEDs  oor life exceeded 672 hours.
Recommended baking condition: 60 ± 5°C for 20 hours.